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Matter and Energy Matter and energy interact and cause changes in matter. Energy Definition: the ability to do work Is NOT matter Is measured in the unit Joules (J) Can be POTENTIAL or KINETIC Potential Energy Energy that is stored (i.e. in a chemical bond). Something has the “potential” to do some kind of work Example: the child at the top of the slide has potential energy REGENTS QUESTION: Given the balanced equation: F2 + energy → F + F Which statement describes what occurs during this reaction? (1) Energy is absorbed as a bond is formed. (2) Energy is absorbed as a bond is broken. (3) Energy is released as a bond is formed. (4) Energy is released as a bond is broken. Kinetic Energy Energy of motion Example: the child going down the slide now has kinetic energy REGENTS QUESTION: The graph below represents the relationship between time and temperature as heat is added at a constant rate to a sample of a substance. During interval AB, which energy change occurs for the particles in this sample? (1)The potential energy of the particles increases. (2) The potential energy of the particles decreases. (3) The average kinetic energy of the particles increases. (4) The average kinetic energy of the particles decreases. So why do we want to study energy? Energy = the ability to do work! Having something do work is great! Examples: our bodies need energy to do work, our cars rely on energy to do work, our homes need to be heated via energy, etc… Different types of energy… Light is waves, visible or invisible Electrical involves moving electrons Heat movement of molecules Chemical is contained in foods Nuclear responsible for the sun Sound waves/vibrations of molecules Mechanical involves moving objects Magnetic opposing poles REGENTS QUESTION: Three forms of energy are (1) chemical, exothermic, and temperature (2) chemical, thermal, and electromagnetic (3) electrical, nuclear, and temperature (4) electrical, mechanical, and endothermic Light Responsible for colors Responsible for sight We have found ways to use light to improve how much we can see and what we see (example: TV) Chemical and Electrical Energy Energizes everything from remote controls to cars. Chemical Energy Chemical energy from crude oil (natural, non-renewable resources) is used to heat our homes and run factories that produce consumer goods. Law of Conservation of Energy Energy, like matter, is neither created nor destroyed, rather it is converted. Examples of Conservation of Energy When you watch TV, it starts as electrical energy and converts to radiant and sound energy. The radiant energy (or light energy) goes into your eye and converts to electrical energy in your nerves and then to the brain. The sound energy (vibrations) go to your ear drum where is vibrates sending electrical impulses to the brain. REGENTS QUESTION: Which quantities must be conserved in all chemical reactions? (1) mass, charge, density (2) mass, charge, energy (3) charge, volume, density (4) charge, volume, energy Summary: What will we study in this unit? What is heat? How is it different from temperature? How does energy relate to chemical reactions? How energy relates to phase changes? REGENTS QUESTION: Which temperature change indicates an increase in the average kinetic energy of the molecules in a sample? (1) 15°C to 298 K (2) 305 K to 0°C (3) 37°C to 273 K (4) 355 K to 25°C Understanding Heat Flow Heat (q) is defined as the energy that transfers from one object to another. Heat flows from warm cool. What will happen if the two objects are touching? (example) REGENTS QUESTION A student made a copper bracelet by hammering a small copper bar into the desired shape. The bracelet has a mass of 30.1 grams and was at a temperature of 21°C in the classroom. After the student wore the bracelet, the bracelet reached a temperature of 33°C. Later, the student removed the bracelet and placed it on a desk at home, where it cooled from 33°C to 19°C. Explain, in terms of heat flow, the change in the temperature of the bracelet when the student wore the bracelet. [1] Heat Energy vs. Temperature Temperature is measure of the heat flow. Temperature is a measure of the average kinetic energy of the particles in matter. REGENTS QUESTION: The temperature of a sample of matter is a measure of the (1) total kinetic energy of the particles in the sample (2) total potential energy of the particles in the sample (3) average potential energy of the particles in the sample (4) average kinetic energy of the particles in the sample Heat Energy and Changes in Matter In virtually all changes in matter, energy is released or absorbed. System vs. Surroundings (together they make the universe). Examples REGENTS QUESTION: A few pieces of dry ice, CO2(s), at 78°C are placed in a flask that contains air at 21°C. The flask is sealed by placing an uninflated balloon over the mouth of the flask. As the balloon inflates, the dry ice disappears and no liquid is observed in the flask. State the direction of heat flow that occurs between the dry ice and the air in the flask. [1] Write the name of the process that occurs as the dry ice undergoes a phase change in the flask. [1] Exothermic Reactions (Changes) Exothermic reactions RELEASE ENERGY (i.e. explosions). A good way to remember this is to associate “EXO” with “OUT”. Has a –q value because heat is leaving the system. Heat is a product. Endothermic Reactions (Changes) Endothermic reactions ABSORB ENERGY A good way to remember this is to associate “ENDO” with “INSIDE”. Has a +q value because heating is entering the system. Heat is a reactant. REGENTS QUESTION: What occurs when two fluorine atoms react to produce a fluorine molecule? (1) Energy is absorbed as a bond is broken. (2) Energy is absorbed as a bond is formed. (3) Energy is released as a bond is broken. (4) Energy is released as a bond is formed. Activation Energy Sometimes reactions can’t occur on their own (they can be exothermic). They need a little input of energy to get it started. This energy is called ACTIVATION ENERGY. Can you think of a common example of a reaction that requires activation energy? Energy and Phase Changes Energy of particles of matter relates to the phase or state of matter (solid, liquid, or gas) Therefore, changes in energy result in changes of matter. Let’s review what we already know… Phase Changes Other terms Change in phase Endo or Exo Sign of ΔH or q Endo + Melting Liquefying S L Freezing Solidifying L S Exo - Vaporization Boiling LG Endo + Condensation _______ GL Exo - Sublimation _______ SG Endo + Monitoring Energy in Phase Changes Have you ever sat and watched a pot or kettle of water boil? Did you ever wonder how energy from the stove causes the water to change phase? Have you ever thought about PE and KE changes in the process of heating water? Heating Curve of Water F D B A C E What changes in phase are occurring… AB- solid, ice BC- melting CD- liquid DE- boiling EF- gas REGENTS QUESTION: The graph below represents the uniform heating of a substance from the solid to the gas phase. Which line segment of the graph represents boiling? (1) AB— (2) CD— (3) BC— (4) DE— What changes in energy are occurring… AB- increase in KE (as evident by increase in temperature) BC- no change in KE, but continually adding heat, so increase in PE CD- increase in KE DE- increase in PE EF- increase in KE REGENTS QUESTION diagram REGENTS QUESTION: A sample of a substance is a liquid at 65°C. The sample is heated uniformly to 125°C. The heating curve for the sample at standard pressure is shown below. Determine the boiling point of the sample at standard pressure. [1] State what happens to the potential energy of the particles of the sample during time interval BC. [1] What is specific heat capacity? The amount of heat energy required to raise 1 unit of mass of a substance by 1 unit temperature. C=4.18 J/g°C (specific heat capacity of water). Table B Heat of Fusion Heat of fusion (Hf) = amount of heat energy absorbed or released when melting or freezing. See Reference Table B for values Ex: Hf H2O = 334 J/g Heat of Vaporization Heat of vaporization = heat absorbed or released when vaporizing or condensing. See Reference Tables for values. Ex: HVH2O = 2260 J/g Kinetic Theory of Heat Molecules and atoms are constantly in motion, even in the SOLID phase. They are said to have kinetic energy or the energy of motion. As the energy of the particles increases, temperature increases. Heat Calculations and Phase Changes One can calculate how much heat is absorbed or released. Potential energy If the problem says… Melt/freeze Vaporize condense At 0°C (melting/freezing point) At 100°C (boiling/condensing point) Use Q = mHf (melting/freezing) or Q = mHv (vaporization/condensation) Kinetic energy If the problem says… Temperature changes Increase in temp from __ to __ Decrease in temp from __ to __ Heat a liquid/solid Cool a liquid/solid Use Q = mCΔT Examples How much heat is needed to melt 10.5 grams of ice at 0°C? Use Q = mHf Q = (10.5 g) (334 J/g) Q= 3507 J Examples What mass of liquid water can be vaporized if 680 J of heat energy is added at 100°C? Use Q = mHv 680 J = (m) (2260 J/g) m= 0.30 g Examples How much energy is needed to increase the temperature of 5.0 grams of water from 0°C to 10°C? Use Q = mCΔT Q = (5.0 g) (4.18 J/g°C)(10-0) Q= 209 J Examples What is the mass of water that can be increased in temperature by 15°C by the addition of 800 J? Use Q = mCΔT 800 J = (m) (4.18 J/g°C)(15°C) m= 12.8 g Calorimetry Used to measure amount of heat released or absorbed during a chemical/physical change that occurs in water solution. “calorimeter” is used to measure the change in temperature of water surrounding a reaction. Cheap Calorimeter- insulation REGENTS QUESTION diagram REGENTS QUESTION: Base your answers to questions1 through 3 on the information below and on your knowledge of chemistry. Starting as a solid at 25°C, a sample of H2O is heated at a constant rate until the sample is at 125°C. This heating occurs at standard pressure. The graph below represents the relationship between temperature and heat added to the sample. 1. Describe what happens to both the potential energy and the average kinetic energy of the molecules in the H2O sample during interval AB. [1] 2.Using the graph, determine the total amount of heat added to the sample during interval CD. [1] 3. Explain, in terms of heat of fusion and heat of vaporization, why the heat added during interval DE is greater than the heat added during interval BC for this sample of water. [1]